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Mitochondrium
The endoplasmic reticulum look like flattened sacs.
Every physical phenomenon is an example of equilibrium; whenever there is conservation ,if you look closer, there is equilibrium. The action reaction principle is one example.
Perhaps you can try a Neurolucida apparatus?
I think it is. Take a look at some pictures of Mimas; it looks pretty round to me.
look like a ball
A stack of pancakes or uninflatted balloons!
Mitochondrium
The endoplasmic reticulum look like flattened sacs.
Every physical phenomenon is an example of equilibrium; whenever there is conservation ,if you look closer, there is equilibrium. The action reaction principle is one example.
Every physical phenomenon is an example of equilibrium; whenever there is conservation ,if you look closer, there is equilibrium. The action reaction principle is one example.
They are called Artesian Wells where underground water under positive pressure causes the water level in the well to rise to a point where hydrostatic equilibrium has been reached. If the water reaches ground level they are call flowing artesian wells; some my look like fountains.
Nobody Knows, Because Scientists have not reached it, And possibly never will. It's practically impossible
Perhaps you can try a Neurolucida apparatus?
i think its Golgi apparatus. YES IT IS, UR RIGHT.
wind
In physics there are two common types of equilibrium: static equilibrium and neutral equilibrium. Equilibrium usually is related to potential energy, for a system to be at equilibrium it must maintain the balance between the two types of mechanical energy: potential and kinetic. The first equilibrium: static means that the system is in a relatively low (relatively means that there could be lower energy but the current states is a local minimum), thus small disturbances to the system will be returned to its original equilibrium. The other type of equilibrium is neutral equilibrium, the relative energies of the system is constant, thus disturbances to the system will move the system but it will remain at the same equilibrium value, and the system makes no effort to return to its original state. Please take a look at the graph for a visualization of these 2 types.